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/*
Bullet Continuous Collision Detection and Physics Library
Copyright ( c ) 2013 Erwin Coumans http : //bulletphysics.org
This software is provided ' as - is ' , without any express or implied warranty .
In no event will the authors be held liable for any damages arising from the use of this software .
Permission is granted to anyone to use this software for any purpose ,
including commercial applications , and to alter it and redistribute it freely ,
subject to the following restrictions :
1. The origin of this software must not be misrepresented ; you must not claim that you wrote the original software . If you use this software in a product , an acknowledgment in the product documentation would be appreciated but is not required .
2. Altered source versions must be plainly marked as such , and must not be misrepresented as being the original software .
3. This notice may not be removed or altered from any source distribution .
*/
# ifndef BT_MULTIBODY_CONSTRAINT_H
# define BT_MULTIBODY_CONSTRAINT_H
# include "LinearMath/btScalar.h"
# include "LinearMath/btAlignedObjectArray.h"
# include "btMultiBody.h"
class btMultiBody ;
struct btSolverInfo ;
# include "btMultiBodySolverConstraint.h"
struct btMultiBodyJacobianData
{
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btAlignedObjectArray < btScalar > m_jacobians ;
btAlignedObjectArray < btScalar > m_deltaVelocitiesUnitImpulse ; //holds the joint-space response of the corresp. tree to the test impulse in each constraint space dimension
btAlignedObjectArray < btScalar > m_deltaVelocities ; //holds joint-space vectors of all the constrained trees accumulating the effect of corrective impulses applied in SI
btAlignedObjectArray < btScalar > scratch_r ;
btAlignedObjectArray < btVector3 > scratch_v ;
btAlignedObjectArray < btMatrix3x3 > scratch_m ;
btAlignedObjectArray < btSolverBody > * m_solverBodyPool ;
int m_fixedBodyId ;
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} ;
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ATTRIBUTE_ALIGNED16 ( class )
btMultiBodyConstraint
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{
protected :
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btMultiBody * m_bodyA ;
btMultiBody * m_bodyB ;
int m_linkA ;
int m_linkB ;
int m_numRows ;
int m_jacSizeA ;
int m_jacSizeBoth ;
int m_posOffset ;
bool m_isUnilateral ;
int m_numDofsFinalized ;
btScalar m_maxAppliedImpulse ;
// warning: the data block lay out is not consistent for all constraints
// data block laid out as follows:
// cached impulses. (one per row.)
// jacobians. (interleaved, row1 body1 then row1 body2 then row2 body 1 etc)
// positions. (one per row.)
btAlignedObjectArray < btScalar > m_data ;
void applyDeltaVee ( btMultiBodyJacobianData & data , btScalar * delta_vee , btScalar impulse , int velocityIndex , int ndof ) ;
btScalar fillMultiBodyConstraint ( btMultiBodySolverConstraint & solverConstraint ,
btMultiBodyJacobianData & data ,
btScalar * jacOrgA , btScalar * jacOrgB ,
const btVector3 & constraintNormalAng ,
const btVector3 & constraintNormalLin ,
const btVector3 & posAworld , const btVector3 & posBworld ,
btScalar posError ,
const btContactSolverInfo & infoGlobal ,
btScalar lowerLimit , btScalar upperLimit ,
bool angConstraint = false ,
btScalar relaxation = 1.f ,
bool isFriction = false , btScalar desiredVelocity = 0 , btScalar cfmSlip = 0 ) ;
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public :
BT_DECLARE_ALIGNED_ALLOCATOR ( ) ;
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btMultiBodyConstraint ( btMultiBody * bodyA , btMultiBody * bodyB , int linkA , int linkB , int numRows , bool isUnilateral ) ;
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virtual ~ btMultiBodyConstraint ( ) ;
void updateJacobianSizes ( ) ;
void allocateJacobiansMultiDof ( ) ;
//many constraints have setFrameInB/setPivotInB. Will use 'getConstraintType' later.
virtual void setFrameInB ( const btMatrix3x3 & frameInB ) { }
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virtual void setPivotInB ( const btVector3 & pivotInB ) { }
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virtual void finalizeMultiDof ( ) = 0 ;
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virtual int getIslandIdA ( ) const = 0 ;
virtual int getIslandIdB ( ) const = 0 ;
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virtual void createConstraintRows ( btMultiBodyConstraintArray & constraintRows ,
btMultiBodyJacobianData & data ,
const btContactSolverInfo & infoGlobal ) = 0 ;
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int getNumRows ( ) const
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{
return m_numRows ;
}
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btMultiBody * getMultiBodyA ( )
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{
return m_bodyA ;
}
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btMultiBody * getMultiBodyB ( )
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{
return m_bodyB ;
}
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int getLinkA ( ) const
{
return m_linkA ;
}
int getLinkB ( ) const
{
return m_linkB ;
}
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void internalSetAppliedImpulse ( int dof , btScalar appliedImpulse )
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{
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btAssert ( dof > = 0 ) ;
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btAssert ( dof < getNumRows ( ) ) ;
m_data [ dof ] = appliedImpulse ;
}
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btScalar getAppliedImpulse ( int dof )
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{
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btAssert ( dof > = 0 ) ;
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btAssert ( dof < getNumRows ( ) ) ;
return m_data [ dof ] ;
}
// current constraint position
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// constraint is pos >= 0 for unilateral, or pos = 0 for bilateral
// NOTE: ignored position for friction rows.
btScalar getPosition ( int row ) const
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{
return m_data [ m_posOffset + row ] ;
}
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void setPosition ( int row , btScalar pos )
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{
m_data [ m_posOffset + row ] = pos ;
}
bool isUnilateral ( ) const
{
return m_isUnilateral ;
}
// jacobian blocks.
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// each of size 6 + num_links. (jacobian2 is null if no body2.)
// format: 3 'omega' coefficients, 3 'v' coefficients, then the 'qdot' coefficients.
btScalar * jacobianA ( int row )
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{
return & m_data [ m_numRows + row * m_jacSizeBoth ] ;
}
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const btScalar * jacobianA ( int row ) const
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{
return & m_data [ m_numRows + ( row * m_jacSizeBoth ) ] ;
}
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btScalar * jacobianB ( int row )
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{
return & m_data [ m_numRows + ( row * m_jacSizeBoth ) + m_jacSizeA ] ;
}
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const btScalar * jacobianB ( int row ) const
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{
return & m_data [ m_numRows + ( row * m_jacSizeBoth ) + m_jacSizeA ] ;
}
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btScalar getMaxAppliedImpulse ( ) const
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{
return m_maxAppliedImpulse ;
}
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void setMaxAppliedImpulse ( btScalar maxImp )
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{
m_maxAppliedImpulse = maxImp ;
}
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virtual void debugDraw ( class btIDebugDraw * drawer ) = 0 ;
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virtual void setGearRatio ( btScalar ratio ) { }
virtual void setGearAuxLink ( int gearAuxLink ) { }
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virtual void setRelativePositionTarget ( btScalar relPosTarget ) { }
virtual void setErp ( btScalar erp ) { }
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} ;
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# endif //BT_MULTIBODY_CONSTRAINT_H